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Review of Near-Field Wireless Power and Communication for Biomedical Applications

Title
Review of Near-Field Wireless Power and Communication for Biomedical Applications
Authors
Kim, Han-JoonHirayama, HiroshiKim, SanghoekHan, Ki-JinZhang, RuiChoi, Ji-Woong
DGIST Authors
Kim, Han-Joon; Choi, Ji-Woong
Issue Date
2017
Citation
IEEE Access, 5, 21264-21285
Type
Article
Article Type
Article
Keywords
AbsorptionCouplingsDental prosthesesEnergy transferImplants (surgical)Information managementMedical applicationsNear field communicationRadio frequency identification (RFID)Water absorptionWireless networksWireless sensor networksWireless telecommunication systemsBiomedical applicationsCommunication system securityImplantable devicesWireless communicationsWireless powerData communication systems
ISSN
2169-3536
Abstract
Near-field magnetic wireless systems have distinct advantages over their conventional far-field counterparts in water-rich environments, such as underwater, underground, and in biological tissues, due to lower power absorption. This paper presents a comprehensive review of near-field magnetic wireless power transfer (WPT) and communication technologies in a variety of applications from general free-space systems, to implantable biomedical devices we find of particular interest. To implement a fully wirelessly-powered implantable system, both high-efficiency power transfer and high-rate data communication are essential. This paper first presents the history and the fundamentals of near-field WPT and communication in free-space systems, followed by technical details for their specific use in implantable biomedical devices. Finally, this paper reviews recent advances in simultaneous wireless information and power transfer (SWIPT) and highlights their applications in implantable biomedical systems. The knowledge reviewed in the paper could provide intuition in the design of various wireless and mobile systems such as wireless body area networks, small-cell 5G cellular, as well as in-body biomedical applications, especially for efficient power and data management and higher security. OAPA
URI
http://hdl.handle.net/20.500.11750/4748
DOI
10.1109/ACCESS.2017.2757267
Publisher
Institute of Electrical and Electronics Engineers Inc.
Related Researcher
  • Author Choi, Ji Woong CSP(Communication and Signal Processing) Lab
  • Research Interests Communication System; Signal Processing; Communication Circuit Design; 생체 신호 통신 및 신호 처리; 뇌-기계 인터페이스(BMI); 차세대 교차계층 통신 및 신호 처리; 5G 모바일 통신
Files:
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Collection:
Information and Communication EngineeringCSP(Communication and Signal Processing) Lab1. Journal Articles


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